Interface Level

Parameters

User offset within the logical device memory at which the mapping begins.

as

An opaque data structure that describes the address space into which the device memory should be mapped.

addrp

Pointer to the starting address in the address space into which the device memory should be mapped.

len

Length (in bytes) of the memory to be mapped.

prot

A bit field that specifies the protections. Some possible settings combinations are:

PROT_READ

Read access is desired.

PROT_WRITE

Write access is desired.

PROT_EXEC

Execute access is desired.

PROT_USER

User-level access is desired (the mapping is being done as a result of a mmap(2) system call).

PROT_ALL

All access is desired.

maxprot

Maximum protection flag possible for attempted mapping; the PROT_WRITE bit may be masked out if the user opened the special file read-only.

flags

Flags indicating type of mapping. The following flags can be specified:

MAP_PRIVATE

Changes are private.

MAP_SHARED

Changes should be shared.

MAP_FIXED

The user specified an address in *addrp rather than letting the system choose an address.

cred

Pointer to the user credential structure.

Description

devmap_setup() and ddi_devmap_segmap() allow device drivers to use the devmap framework to
set up user mappings to device memory. The devmap framework provides
several advantages over the default device mapping framework that is used by
ddi_segmap(9F) or ddi_segmap_setup(9F). Device drivers should use the devmap framework, if the
driver wants to:

use an optimal MMU pagesize to minimize address translations,

conserve kernel resources,

receive callbacks to manage events on the mapping,

export kernel memory to applications,

set up device contexts for the user mapping if the device requires context switching,

assign device access attributes to the user mapping, or

change the maximum protection for the mapping.

devmap_setup() must be called in the segmap(9E) entry point to establish the
mapping for the application. ddi_devmap_segmap() can be called in, or be used as,
the segmap(9E) entry point. The differences between devmap_setup() and ddi_devmap_segmap() are in
the data type used for off and len.

When setting up the mapping, devmap_setup() and ddi_devmap_segmap() call the devmap(9E)
entry point to validate the range to be mapped. The devmap(9E) entry point
also translates the logical offset (as seen by the application) to the
corresponding physical offset within the device address space. If the driver does not
provide its own devmap(9E) entry point, EINVAL will be returned to the
mmap(2) system call.

Return Values

0

Successful completion.

Non-zero

An error occurred. The return value of devmap_setup() and ddi_devmap_segmap() should be used directly in the segmap(9E) entry point.

Context

devmap_setup() and ddi_devmap_segmap() can be called from user or kernel context only.